林冠郁闭时间影响林下草本植物白花延龄草(延龄草科)的碳转运和种子产量。
Timing of canopy closure influences carbon translocation and seed production of an understorey herb, Trillium apetalon (Trilliaceae).
作者信息
Ida Takashi Y, Kudo Gaku
机构信息
Graduate School of Environmental Science, Hokkaido University, Sapporo, 060-0810, Japan.
出版信息
Ann Bot. 2008 Feb;101(3):435-46. doi: 10.1093/aob/mcm296. Epub 2007 Nov 30.
BACKGROUND AND AIMS
The light availability on a temperate, deciduous-forest floor varies greatly, reflecting the seasonal leaf dynamics of the canopy trees. The growth and/or reproductive activity of understorey plants should be influenced by the length of the high-irradiance period from snowmelt to canopy closure. The aim of the present study was to clarify how spring-blooming species regulate the translocation of photosynthetic products to current reproduction and storage organs during a growing season in accordance with the changing light conditions.
METHODS
Growth pattern, net photosynthetic rate, seed production, and shoot and flower production in the next year of Trillium apetalon were compared between natural and experimentally shaded conditions. Furthermore, translocation of current photosynthetic products within plants was assessed by a labelled carbon-chase experiment.
KEY RESULTS
During the high-irradiance period, plants showed high photosynthetic ability, in which current products were initially used for shoot growth, then reserved in the rhizome. Carbon translocation to developing fruit occurred after canopy closure, but this was very small due to low photosynthetic rates under the darker conditions. The shading treatment in the early season advanced the time of carbon translocation to fruit, but reduced seed production in the current year and flower production of the next year.
CONCLUSIONS
Carbon translocation to the storage organ had priority over seed production under high-irradiance conditions. A shortened bright period due to early canopy closure effectively restricts carbon assimilation, which greatly reduces subsequent reproductive output owing to low photosynthetic products for fruit development and small carbon storage for future reproduction. As populations of this species are maintained by seedling recruitment, acceleration of canopy closure timing may influence the maintenance and dynamics of populations.
背景与目的
温带落叶林地面的光照可利用性差异很大,这反映了冠层树木的季节性叶片动态。林下植物的生长和/或繁殖活动应受从融雪到冠层郁闭的高光照期长度的影响。本研究的目的是阐明春季开花物种在生长季节如何根据不断变化的光照条件调节光合产物向当前繁殖器官和储存器官的转运。
方法
比较了延龄草在自然条件和实验遮荫条件下的生长模式、净光合速率、种子产量以及次年的枝条和花朵产量。此外,通过标记碳追踪实验评估了植物体内当前光合产物的转运情况。
主要结果
在高光照期,植物表现出较高的光合能力,此时当前产物最初用于枝条生长,然后储存在根茎中。冠层郁闭后光合产物才转运至发育中的果实,但由于较暗条件下光合速率较低,转运量非常小。早期的遮荫处理提前了光合产物向果实的转运时间,但降低了当年的种子产量和次年的花朵产量。
结论
在高光照条件下,光合产物向储存器官的转运优先于种子生产。由于冠层提前郁闭导致光照期缩短,有效地限制了碳同化,这极大地降低了后续的繁殖产量,因为用于果实发育的光合产物较少,且用于未来繁殖的碳储存量也较小。由于该物种的种群靠幼苗补充得以维持,冠层郁闭时间的提前可能会影响种群的维持和动态。
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